Scott, A.F.; Mohr, D.W.; Littrell, W.A.; Babu, R.; Kokosinski, M.; Stinnett, V.; Madhiwala, J.; Anderson, J.; Zou, Y.S.; Gabrielson, K.L.
Characterization of the Rat Osteosarcoma Cell Line UMR-106 by Long-Read Technologies Identifies a Large Block of Amplified Genes Associated with Human Disease. Genes 2024, 15, 1254.
https://doi.org/10.3390/genes15101254
AMA Style
Scott AF, Mohr DW, Littrell WA, Babu R, Kokosinski M, Stinnett V, Madhiwala J, Anderson J, Zou YS, Gabrielson KL.
Characterization of the Rat Osteosarcoma Cell Line UMR-106 by Long-Read Technologies Identifies a Large Block of Amplified Genes Associated with Human Disease. Genes. 2024; 15(10):1254.
https://doi.org/10.3390/genes15101254
Chicago/Turabian Style
Scott, Alan F., David W. Mohr, William A. Littrell, Reshma Babu, Michelle Kokosinski, Victoria Stinnett, Janvi Madhiwala, John Anderson, Ying S. Zou, and Kathleen L. Gabrielson.
2024. "Characterization of the Rat Osteosarcoma Cell Line UMR-106 by Long-Read Technologies Identifies a Large Block of Amplified Genes Associated with Human Disease" Genes 15, no. 10: 1254.
https://doi.org/10.3390/genes15101254
APA Style
Scott, A. F., Mohr, D. W., Littrell, W. A., Babu, R., Kokosinski, M., Stinnett, V., Madhiwala, J., Anderson, J., Zou, Y. S., & Gabrielson, K. L.
(2024). Characterization of the Rat Osteosarcoma Cell Line UMR-106 by Long-Read Technologies Identifies a Large Block of Amplified Genes Associated with Human Disease. Genes, 15(10), 1254.
https://doi.org/10.3390/genes15101254